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SF-C50USB-D1.6
SINCEREFIRST
This is a Plastic Lens OCHFA10 Sensor Industrial LED Endoscope Camera Module, equipped with OmniVision OCHFA10 CMOS image sensor. Its core advantage lies in the adoption of a plastic lens paired with a lens design featuring a diameter of only 1.6mm with Steel Shell. The plastic lens combines light weight with excellent chemical stability, adapting to various disinfection scenarios while reducing the overall weight of the module. Meanwhile, it significantly reduces the module size and manufacturing cost while ensuring optical performance. The ultra-small diameter of 1.6mm breaks through space limitations, allowing access to narrow areas that conventional lenses can hardly reach. The module has 0.5MP pixels and 700x700 resolution, supporting a maximum frame rate of 30FPS. The sensor size is 1/17.5 inch, and the pixel size reaches 1.008μm×1.008μm. It supports YUY/MJEPG output formats, with an aperture of F5.0, a focal length of 0.418mm, and a field of view (FOV) of D105°*H86°*V86°, along with TV distortion < -11%, ensuring image regularity under a wide field of view. Additionally, it supports manual focus and direct-view imaging, adopts a Separated design, and outputs data at USB2.0 speed via a Micro USB interface while being compatible with the UVC protocol to support mainstream operating systems. The lens integrates 4 01005-sized LED beads to provide precise illumination. Manufactured through the SMT process and AA (Active Alignment) manufacturing process, it has passed international certifications and inspections including CE, FCC, RoHS, and REACH, meeting the requirements of various harsh application scenarios. |  |
Precise and Reliable Materials: The 1.6mm-diameter lens with Steel Shell is paired with a plastic lens. This design not only meets the needs of detecting narrow spaces but also, due to the plastic material's chemical resistance, adapts to disinfection processes such as ethylene oxide sterilization. The Steel Shell enhances the structural strength of the lens, extending its service life.
Optimized Imaging and Illumination: It integrates 4 01005-sized LED beads (smaller size to fit micro lenses), which provide concentrated illumination with low power consumption. Combined with the 1.008μm pixel size and F5.0 aperture, it still ensures clear imaging at 700x700 resolution in narrow spaces.
High Operational Flexibility: The Separated design facilitates flexible arrangement of cables and lens positions. Manual focus allows accurate locking of the target area, and direct-view imaging simplifies the observation process, enabling quick deployment without complex debugging.
Advanced Technology and International Certifications: The SMT process and AA manufacturing process ensure module consistency. The USB2.0 speed and UVC protocol are compatible with mainstream device systems, and multiple international certifications meet the compliance requirements of medical, industrial, and other fields.
Structural and Cost Optimization: The adoption of a plastic lens and 1.6mm-diameter Steel Shell design achieves industry-leading miniaturization while significantly reducing manufacturing costs, making it particularly suitable for disposable application scenarios.
Minimally Invasive Medical Field: Especially suitable for precision medical endoscopes with extreme diameter requirements, such as neuroendoscopes and pediatric endoscopes, which require ultra-thin insertion for diagnosis and treatment scenarios.
Electronic Component Inspection: Used for defect detection of precision electronic components such as chip pins and micro capacitors. It can penetrate into component gaps and efficiently identify solder defects, circuit oxidation, and other issues.
Precision Instrument Maintenance: Adapted for internal maintenance of equipment such as watch movements and micro valves. It can flexibly adjust the angle in complex structures while maintaining clear close-range imaging, helping to detect hidden problems such as gear wear and blockages.
Scientific Research on Micro-Sample Observation: Applicable to the observation of microbial activities and fluid status inside microfluidic chips in laboratories. Its lightweight design is suitable for integration with equipment such as microscopes, enabling clear recording of dynamic processes.
Product Name | 1.6mm Endoscope Camera Module |
Image Sensor | OCHFA CMOS Sensor |
Pixel | 0.5MP |
Diameter | 1.6mm |
View Angle | D105°*H86°*V86° |
F NO | 5.0 |
Product Type | Butoon Photo Endoscope Camera Module |
Led | 4pcs 01005 Led |
Interface | Micro USB |
Feature | Medical Endoscope Camera Module |
Its key strength lies in the 1.6mm-diameter lens with Steel Shell paired with a plastic lens—this combination enables access to narrow spaces, offers chemical resistance for disinfection, reduces weight, and lowers manufacturing costs, while maintaining stable optical performance.
It works for 4 main areas: minimally invasive medical use, electronic component defect detection, precision instrument maintenance, and lab micro-sample observation.
It is manufactured via SMT and AA (Active Alignment) processes for consistency, and has passed international certifications including CE, FCC, RoHS, and REACH—meeting harsh scenario requirements.
Yes, the plastic lens has chemical resistance, supporting disinfection processes like ethylene oxide sterilization. The Steel Shell around the lens also enhances structural strength, extending its service life.
This is a Plastic Lens OCHFA10 Sensor Industrial LED Endoscope Camera Module, equipped with OmniVision OCHFA10 CMOS image sensor. Its core advantage lies in the adoption of a plastic lens paired with a lens design featuring a diameter of only 1.6mm with Steel Shell. The plastic lens combines light weight with excellent chemical stability, adapting to various disinfection scenarios while reducing the overall weight of the module. Meanwhile, it significantly reduces the module size and manufacturing cost while ensuring optical performance. The ultra-small diameter of 1.6mm breaks through space limitations, allowing access to narrow areas that conventional lenses can hardly reach. The module has 0.5MP pixels and 700x700 resolution, supporting a maximum frame rate of 30FPS. The sensor size is 1/17.5 inch, and the pixel size reaches 1.008μm×1.008μm. It supports YUY/MJEPG output formats, with an aperture of F5.0, a focal length of 0.418mm, and a field of view (FOV) of D105°*H86°*V86°, along with TV distortion < -11%, ensuring image regularity under a wide field of view. Additionally, it supports manual focus and direct-view imaging, adopts a Separated design, and outputs data at USB2.0 speed via a Micro USB interface while being compatible with the UVC protocol to support mainstream operating systems. The lens integrates 4 01005-sized LED beads to provide precise illumination. Manufactured through the SMT process and AA (Active Alignment) manufacturing process, it has passed international certifications and inspections including CE, FCC, RoHS, and REACH, meeting the requirements of various harsh application scenarios. | |
Precise and Reliable Materials: The 1.6mm-diameter lens with Steel Shell is paired with a plastic lens. This design not only meets the needs of detecting narrow spaces but also, due to the plastic material's chemical resistance, adapts to disinfection processes such as ethylene oxide sterilization. The Steel Shell enhances the structural strength of the lens, extending its service life.
Optimized Imaging and Illumination: It integrates 4 01005-sized LED beads (smaller size to fit micro lenses), which provide concentrated illumination with low power consumption. Combined with the 1.008μm pixel size and F5.0 aperture, it still ensures clear imaging at 700x700 resolution in narrow spaces.
High Operational Flexibility: The Separated design facilitates flexible arrangement of cables and lens positions. Manual focus allows accurate locking of the target area, and direct-view imaging simplifies the observation process, enabling quick deployment without complex debugging.
Advanced Technology and International Certifications: The SMT process and AA manufacturing process ensure module consistency. The USB2.0 speed and UVC protocol are compatible with mainstream device systems, and multiple international certifications meet the compliance requirements of medical, industrial, and other fields.
Structural and Cost Optimization: The adoption of a plastic lens and 1.6mm-diameter Steel Shell design achieves industry-leading miniaturization while significantly reducing manufacturing costs, making it particularly suitable for disposable application scenarios.
Minimally Invasive Medical Field: Especially suitable for precision medical endoscopes with extreme diameter requirements, such as neuroendoscopes and pediatric endoscopes, which require ultra-thin insertion for diagnosis and treatment scenarios.
Electronic Component Inspection: Used for defect detection of precision electronic components such as chip pins and micro capacitors. It can penetrate into component gaps and efficiently identify solder defects, circuit oxidation, and other issues.
Precision Instrument Maintenance: Adapted for internal maintenance of equipment such as watch movements and micro valves. It can flexibly adjust the angle in complex structures while maintaining clear close-range imaging, helping to detect hidden problems such as gear wear and blockages.
Scientific Research on Micro-Sample Observation: Applicable to the observation of microbial activities and fluid status inside microfluidic chips in laboratories. Its lightweight design is suitable for integration with equipment such as microscopes, enabling clear recording of dynamic processes.
Product Name | 1.6mm Endoscope Camera Module |
Image Sensor | OCHFA CMOS Sensor |
Pixel | 0.5MP |
Diameter | 1.6mm |
View Angle | D105°*H86°*V86° |
F NO | 5.0 |
Product Type | Butoon Photo Endoscope Camera Module |
Led | 4pcs 01005 Led |
Interface | Micro USB |
Feature | Medical Endoscope Camera Module |
Its key strength lies in the 1.6mm-diameter lens with Steel Shell paired with a plastic lens—this combination enables access to narrow spaces, offers chemical resistance for disinfection, reduces weight, and lowers manufacturing costs, while maintaining stable optical performance.
It works for 4 main areas: minimally invasive medical use, electronic component defect detection, precision instrument maintenance, and lab micro-sample observation.
It is manufactured via SMT and AA (Active Alignment) processes for consistency, and has passed international certifications including CE, FCC, RoHS, and REACH—meeting harsh scenario requirements.
Yes, the plastic lens has chemical resistance, supporting disinfection processes like ethylene oxide sterilization. The Steel Shell around the lens also enhances structural strength, extending its service life.
